Resonance Effects in the Quantum Exchange Interaction of Electron and Positron Beams
The technique of resonance effects analysis in the quantum exchange interaction of the electron and positron flows is developed. At the framework of macroscopic quantum theory conducted a joint decision of the Schrödinger and Poisson equations for the macroscopic wave function of the electrons and positrons. Resonance effects in the quantum exchange interaction leads to selforganization of the active volume of a charged medium, and continue up to dynamic compensation of the Coulomb field and the establishment of an electron-positron mode. The calculation results of the potential distribution and the wave functions of the exchange interaction are present.